Puntino-Pro wavefront sensor in the laboratory and mounted at the telescope.
Wavelength range: 390 nm -1100 nm
产品主要特点
For testing astronomical telescopes
Wavefront sensor with in-built motorized light source for getting the reference calibration image in remote mode (to compensate for temperature changes and that flexure caused by the change of telescope position
Wavefront analysis is done using a cooled camera for long integration times (to integrate out seeing effects)
Second uncooled camera is used for analysis of the out-of-focus pupil of the telescope, giving additional information like alignment of the spiders of the primary and secondary mirrors, zones on the mirror surface, support problems etc.
Standard sampling: 26 x 26 spots
Focal ratios from f/1.8 up to f/300
软件功能
Measure the aberrations ( up to 70 terms of the Zernike polynomials)
Estimate optical quality and Strehl ratio
Inspect the wavefront corresponding to any aberration
Focus your telescope. The program gives the magnitude (in mm) and the direction for effecting the correction
Align your telescope in minutes instead of hours. Use the indications given by the software (magnitude and direction) to move the secondary mirror for effecting the alignment. It takes the guesswork out of alignment
Find out the correct focal plane using the spherical aberration measured by PuntinoPro. The program again gives you the magnitude and direction in which to move the secondary mirror or the focal plane
Helps identifying support errors at the zenith by shown by the wavefront map after mathematically subtracting the lower order aberration
Optimize dome and mirror seeing by inspecting the plots of the residuals
On-line display of how the aberrations change during the night
Based on the Shack-Hartmann data, the MTF of the telescope can be computed
Build/refine a sophisticated pointing model for the telescope using the indications given by PuntinoPro of the shift of image in the focal plane of the telescope for different positions in the sky
PuntinoPro comes with detailed on-line help and a hardware and software user's manual containing both theory and practical examples to guide you in getting the correct interpretation out of the Shack-Hartmann analysis
Measurement of combined external seeing, dome and mirror seeing using the second CCD camera
Puntino 主要技术指标
Feature /项目
Specification / 说明
Type of element that can be measured
Astronomical telescopes (at Cassegrain, Prime and Newtonian focus). Telescopes in the laboratory. Lenses in external illumination
Focal ratios covered
f/1.8 to f/300 standard. Faster focal ratios can be tested with special setup
Diameter of optical element that can be tested
Practically any diameter
Diameter of lenslets
0.3 mm
Focal length of lenslets
41 mm
Standard sampling on the pupil
About 26 x 26 spots
Maximum sampling
Up to 70 x 70 spots can be used (camera dependent)
Analysis Software
Sensoft
Precision of Zernike polynomials coefficients (laboratory)
λ/300
Precision of Zernike polynomials coefficients (telescope)
0.01 "
Precision with which the wavefront is computed
λ/150 rms
Wavelength range
With standard camera from 0.375 μ up to 1.1 μ. With IR camera up to 2 μ
Reference source
LED with cooled camera. Remotely controlled
Distance from flange to instrument focus
54.8 mm
Height of optical axis from base
61.5 mm
Camera for SH
16-bit cooled CCD
Camera for finder
10-bit uncooled CMOS, 1280 x 1024 pixels, 7.5 μ pixel size or 14 or 16-bit cooled CCD
